I have some categorical features in my data along with continuous ones. Is it a good or absolutely bad idea to hot encode category features to find correlation of it to labels along with other continuous creatures?
3 Answers
There is a way to calculate the correlation coefficient without onehot encoding the category variable. Cramers V statistic is one method for calculating the correlation of categorical variables. It can be calculated as follows. The following link is helpful. Using pandas, calculate Cramér's coefficient matrix For variables with other continuous values, you can categorize by using cut
of pandas
.
import numpy as np
import pandas as pd
import scipy.stats as ss
import seaborn as sns
print('Pandas version:', pd.__version__)
# Pandas version: 1.3.0
tips = sns.load_dataset("tips")
tips["total_bill_cut"] = pd.cut(tips["total_bill"],
np.arange(0, 55, 5),
include_lowest=True,
right=False)
def cramers_v(confusion_matrix):
""" calculate Cramers V statistic for categorialcategorial association.
uses correction from Bergsma and Wicher,
Journal of the Korean Statistical Society 42 (2013): 323328
"""
chi2 = ss.chi2_contingency(confusion_matrix)[0]
n = confusion_matrix.sum()
phi2 = chi2 / n
r, k = confusion_matrix.shape
phi2corr = max(0, phi2  ((k1)*(r1))/(n1))
rcorr = r  ((r1)**2)/(n1)
kcorr = k  ((k1)**2)/(n1)
return np.sqrt(phi2corr / min((kcorr1), (rcorr1)))
confusion_matrix = pd.crosstab(tips["day"], tips["time"])
cramers_v(confusion_matrix.values)
# Out[2]: 0.9386619340722221
confusion_matrix = pd.crosstab(tips["total_bill_cut"], tips["time"])
cramers_v(confusion_matrix.values)
# Out[3]: 0.1649870749498837
please note the .as_matrix()
is deprecated in pandas since verison 0.23.0 . use .values
instead

4Thanks for reply, but my question was not how to calculate the correlation between categorical features. Question is: Is it a good idea or terribly bad idea to use hot encoders for categorical features and then using the features including categorical & continuous ones to calculate correlation. Commented Sep 30, 2017 at 3:04

6I am sorry for misunderstanding the question. I think there is no problem to calculate the correlation between one hot encoding feature and another continuous feature, but I think that the correlation coefficient will be a value only for one item of the category.– KeikuCommented Sep 30, 2017 at 3:14


3Sorry for lack of explanation. Suppose you have onehot encoded an item of gender. Gender items are separated into male and female and other variables. The male variable is a flag of 0 or 1, whether it is male or not. I think it is possible to correlate with these flag variables. In general, however, correlation coefficients for categorical variables use statistical analysis methods using statistics such as frequency of categories of items before onehot encoding. See also stats.stackexchange.com/questions/102778/…– KeikuCommented Oct 1, 2017 at 3:38

1@Keiku, I just saw that it has to be
n = confusion_matrix.sum().sum()
instead ofn = confusion_matrix.sum()
in newer versions ofpandas
. Maybe that's why the downvoting. Commented Jul 13, 2021 at 13:04
I found phik
library quite useful in calculating correlation between categorical and interval features. This is also useful for binning numerical features. Try this once: phik documentation
I was looking to do same thing in BigQuery. For numeric features you can use built in CORR(x,y) function. For categorical features, you can calculate it as: cardinality (cat1 x cat2) / max (cardinality(cat1), cardinality(cat2). Which translates to following SQL:
SELECT
COUNT(DISTINCT(CONCAT(cat1, cat2))) / GREATEST (COUNT(DISTINCT(cat1)), COUNT(DISTINCT(cat2))) as cat1_2,
COUNT(DISTINCT(CONCAT(cat1, cat3))) / GREATEST (COUNT(DISTINCT(cat1)), COUNT(DISTINCT(cat3))) as cat1_3,
....
FROM ...
Higher number means lower correlation.
I used following python script to generate SQL:
import itertools
arr = range(1,10)
query = ',\n'.join(list('COUNT(DISTINCT(CONCAT({a}, {b}))) / GREATEST (COUNT(DISTINCT({a})), COUNT(DISTINCT({b}))) as cat{a}_{b}'.format(a=a,b=b)
for (a,b) in itertools.combinations(arr,2)))
query = 'SELECT \n ' + query + '\n FROM `...`;'
print (query)
It should be straightforward to do same thing in numpy.